Vibratory motor device



March 2, 1937. E. L. BARRETT ET AL 2,072,578.

VIBRATORY MOTOR DEVICE Filed Dec. 5, 1935 3 Sheets-Sheet l March 2, 1937- E. l. BARRETT'ET L 2,072,578

VIBRATORY MOTOR DEVICE Filed Dec. 5, 1935 3 Sheets-Sheet 2 Invents; MEdwWdLQr/e Mar JMa www March 2, 1937.-

E. L BARRETT El' AL vIBRAToRY MOTOR DEVICE Filed Dec. 5, 1935 3 Sheets-Sheet 3 72 yen/79775; lciwarzl Bar/'62% Patented' Mu. 2, "1.937

PATENT OFFICE amas-1s vmaa'roar Moron Dsvrca EdwardLBarretLLaGrange,lllandMaxJ. Manahan, Mount Vernon, N. Y., asaignors to Utah Radio Products Company, Chicago, lll., a

corporation oi Illinois Application December 5, 1935, Serial No. 52,987

24 Claims. The inventicub relates generally to vibratory -motor devices and more particularly to devices oi this character which are especially well adapted for use as a circuit interrupting means in electrical systems for transforming direct current into altematlng current and thence into direct current, such systems for example being largely employed at present in providing electrical energy of proper potential for the operation oi a motor vehicle installation 4oi a radio receiving set.

A general object of the invention is to provide `a new and improved device of this nature which is relatively quite small in its overall dimensions,

l5 and in which the component parts have been reduced to such simple form and structure as to produce a device which may be readily and cheaply manufactured without loss of accuracy or operating efilciency.

Another object is to producel a vibratory motor in which the supporting frame is a ilat member capable of being readily produced from sheet metal stock by a simple stamping operation.

Another object is` to provide a vibratory motor in which all oi the elements of the frame, in-- cluding the pole piece oi the driving electromagnetic winding, are located in the same plane and in which a vibratory reed extends along such plane for movement in a direction transversely thereof.

Another object is to provide an improved motor having a novel relationship oi frame and armature for improving the operating eiilciency oi the motor. A l

Another object is to provide in such a device a novel relationship oi electromagnetic. winding core, frame and armature whereby a relatively short. substantially closed magnetic ilux path is provided with resulting high operating A 4b emciency.

Further obiects reside in the provision in a motor oi' this type of novel means for assembling the parts together. more particularly the frame, reed and contact members and the trame and I electromagnetic winding, and in providing means whereby adjustment of the cooperating contactsmaybe convenlentlyandexpeditiously eiiected.

Another object is to provide a novel vibratory o motor structure in which motors of the synchronous or non-snchronous type may be selectively prcducedntiliaina tbesame' basic smictm'e in cembinationwith a contact point assembly for oneor the otherot said types. whereby simplicity andcconomyoimanldacturebathincdthrough (Cl. 2Mb-90) the elimination of a large number o! separate parts for each type with attendant tools. dies. xtures and assembly operations. v

Another object is to provide a novel construction whereby desired exing characteristics are 5 produced in a reed which is supported from one end. v f

Other objects are to provide new and improved means for supporting the motor to prevent or minimize sound and mechanical vibrations, and 1o for connecting the motor in an assembled unit.

Other objects and advantages will become apparent inthe following description and from the accompanying drawings, in which:

Figure l is a perspective view on a reduced l5 scale of a vibratory motor device of the nonsynchronous type embodying the features oi the invention, the enclosing case therefor being shown in broken outline.

Fig. 2 is a longitudinal section through a vi- 20 bratory motor assembly, the motor being shown in elevation.

Fig. 3 is a longitudinal sectional view through the motor assembly, taken as indicated by the line 3 3 of F18. 2.

Fig. A4 is atransverse section through one end of the motor assembly, taken as indicated by the line 4--4 of` Fig. 2. v

Fig. 5 is an extended view showing the parts o1' a motor assembly in perspective.

Fig. 64 is a side view of a part of the enclosing case.

Fig. 7 is a fragmentary end view of said case.

Figs. 8 and 9 are inside end face views oi the resilient motor supporting members respectively 35 for the open and closed ends of the case shown in F18..'1.

Fig. 10 is a transverse section through the 811D- porting member shown in Fig. 9 and is taken. substantially along line ily-I0 ot that ligure.

Fig. 11 is an outer face view o! the open end o! the case and closure therefor.

lllgs.` 12 and 13 are respectively face and side views o! the trame for the motor device.

nu. 14 and 1s show me views of modmea' forms oftheframe,andin1"ig. l5 an energizing winding is shown somewhat diasrammttically.

Flg.16isafronte1evationoi a vibratory motor deviceottbesynchronous type.

FlgJ'Iisacentr-alsectionalviewthroughsaid 50 devicetakenalongtheline I l-i1 oiFlg. 16.

Pig. 18 is'a sectional view taken generally throughtheplaneoitheframeasindic'atedby theline lO-ll ofll'lg. 17. a

mlandoararespectivelnpsnpecuve modifications and alternative constructions, we

have shown in the drawings and will herein de- .scribe in detail the preferred embodiment, but

it is to be understood that-we do not thereby intend to limit the invention to the specific form disclosed, but intend to cover all modifications and alternative constructions falling within the spirit and scope of the linvention as expressed -in the appended claims.

Withreierence to the vibratory motor structure per se, the organization in general embodies a frame which supports a vibratory member or reed, xed' contacts for cooperation with movable contacts carried by the reed, and an electromagnetic winding for driving said reed. A feature of the invention is the provision of a Ibasic assembly of parts from which, by the addi- 'tion of the proper arrangement of cooperating contacts, any one of a number of different types and kinds of-motors can be produced. This basic assembly includes the frame, electromagnetic winding, vibratory reed and 'the members by which these parts, together with the selected cooperating contacts, are united. While frame constructions other than that shown and described herein may be employed as the foundation of such a basic assembly, the simple inexpensive frame employed in the present construction is eminently suitable in all respects.

The frame is preferably a one-piece structure whichincludes a part for supporting the reed and contacts and another part constituting the core of the winding, these parts all being located substantially on the same plane. Such a frame 'may be readily and economically produced from a at sheet of metal stock by a simple stamping operation. The frame is preferably fashioned of such highly magnetic permeable material as cold rolled steel but other materials, such as brass or copper, may be used, although since the cere must be of a magnetic permeable material, provision must then be made for establishing an operating magnetic flux path.

Referring to Figs. 2, 3, 5, and particularly Figs. 12 and 13, a preferred form of frame i0 is shown as comprising an elongated rectangularly shaped member fashioned from relatively light steel stock by a stamping operation. The frame has narrow side members I I, an end member I2 of approximately the same width, and an opposed wider end member I3. These members define an open center structure, the opening being identifled by the numeral I l. Projecting from the narrow end member I2 and preferably extending intothe center opening Il is a corek I5 which is integral with the 'end member and is readily formed in the stamping operation. As may be seen in Iiig. 13, all of the elements of the frame arev thus located on the same plane. However, for a purpose which will be hereinafter explained,

'it'is preferred that both of the side members II be slightly offset, as indicated at I8, out of the plane of the frame.

The core I5 is adapted to receive and support an ,electromagnet winding Il, while the wider end member Il is adapted to support the vibratory reed I8 and the cooperative contact strncrtures, and for this purpose is provided with a meaIlS may 138.88.

'Isl

pair of.` apertures I! through which securing The vibratory reed is of the cantilever type ,apertures 24e (Fig. 5i for this purpose.

and preferably is fashioned so that it will have exing characteristics along its length beyond the supported end thereof which have been found eminently desirable, and which permit. the use of a reed of substantially smaller dimensions than would otherwise be possible. Thus, the reed should flex initially adjacent to its supported end so that minimum movement of the reed as a whole will close relatively widely spaced cooperating contacts. However, it is desirable that the contacts remain closed as long as possible to maintain a high time eillciency. The outer portion of the reed beyond the contacts carried thereby may, therefore, be fashioned to flex substantially uniformly and more readily than the other or inner portion so that the reed and armature, after the contacts have closed, may have substantial continued movement in overcoming their inertia and thus hold the contacts closed an appreciable interval while smoothly changing the direction of vibratory movement.

Referring to Figs. 2, 3, and 5, a preferred form of reed I8 comprises an elongated member fashioned of a suitable resilient material, such as spring steel or bronze. The reed is dimensioned longitudinally to extend from substantially the 'outer edge of the end member I3 nearly, but not quite, to the end face of the core I 5, and invwidth preferably to extend almost completely across the center opening I4 with as small a `clearance between the sides of the reed and theI adjacent side frame members I I as is practical. The reed has a longitudinally extending central opening 20 dimensioned lengthwise to provide what may be termed a fixed end portion 2I, and a narrow opposite end portion 22, the latter being the mov able end of the reed. The end portion 22 carries a magnetizable armature 23', spot fielded or otherwisesuitably secured thereto, while' the end portion 2I is provided with apertures 24 disposed for registration with the apertures I9 in the frame.

The desired flexing characteristics of the reed are in this instance obtained by forming the en'ii margins ofthe opening 20 substantially paralle? with the side margins extending in approximair-l parallelism from the end portion 2| for a distance about equal to one-third of. the length of the opening. The attachment of -the reed carried contacts is, in this embodiment, at this point and the reed is provided with transversely alined Beyonf the parallel portions of the side margins, both, slope outwardly to -provide a gradual enlargement ci? the opening.

The shape of the inner portion of the reed insures that the initial bending of the free reed will occur substantially adjacent to the fixed end thereof and the shape of the outer portion causes a ready flexing of the reed beyond the contacts and after the contacts have engaged. The shape and dimensions of the opening 20 may be othern wise than shown, but the reed should be weakened by properly reducing the cross sectional area to vproduce the desired results. In some instances,

it may be advisable to weakenthe reed to produce the required fiexure at one or the other of the reed portions but not both.

The electromagnetic winding unit and the assembly thereof on the frame is best shown in wide to abut the opposed spool ends and perhaps.

sheet metal is bent to provide atubular member or sleeve 25 (Fig. 5) of rectangular cross section l conforming to that of the core I5 and dimensioned to fit snugly thereover. The meeting edges of the bent sheet are located substantially on the center line'of one of the wider sides and the corners at the inner end' of the sleeve are turned slightly inwardly, as indicated at 26, resiliently to grip the core in assembly. At both ends the narrower sides are extended to form fingers 21 and the outer end has an apertured nib 2l extending in the plane of the closed wider side.

'I'he ngers 21 are adapted to be bent outwardly at right angles to the sleeve body to prevent outward movement oi' an inner spool end 29 and an outer spool end 30 which are apertured to fit snugly about the sleeve. In assembly, one pair of fingers is turned outwardly, both spool ends slipped over the sleeve and the other pair of fingers turned outwardly. The spool ends are separated and a layer of paper 3| or the like is wound about the-sleeve, the layer being amply turn slightly outwardly to fillet the corners and hold the spool ends apart. The coil is wound on at a point near the nib 23. In mounting thel winding unit on the core I5, the sleeve is slipped over the core until the adjacent'flngers 21 abutA the inner side of the frame end I2. The nib 23 is thereby brought into face to face abutment with the frame end I2 and the parts are firmly united as by a spot of solder 34. By the same means, the winding end 33 may be conveniently grounded to the frame. `The projection 32 is arranged to extend across the adjacent frame side member Il (the oflset I6 providing clearance) and the winding end 32 engages the projection aperture at a point approximately over the longitudinal center line of the frame side.

The structure heretofore described comprises the major portion of the basic assembly in which the cooperating sets of contacts may be incorporated, as will become apparent, to form motor units'for operation in conjunction with various circuits. In vibratory motors of the character to which this invention relates particularly, the reed carries one or more contacts (which may be designated movable contacts) for cooperation with a like number of cooperatively related contacts (to be identified as fixed contacts).

The number of sets of cooperating movable and iixed contacts employed will depend on the character of the system in which the motor is to be connected. If the system is one in which only mechanical interruption of the transformer primary circuit is required, one set of contacts or two alternately engageable sets will be used to produce respectively half wave or full wave interruption.

current from the secondary circuit, the motor will be provided not only'- with the previously mentioned contacts for controlling the primary circuit, but with additional cooperating contacts arranged to be engaged substantially simultaneously with the engagement of the primary circuit controlling contacts. Such a motor, in distinction from the rst mentioned type, may be characterized as being of a synchronous type.

Obviously -a number of combinations of sets of cooperating contacts may be made to meet different circuit requirements but herein only two types of motors have been illustrated, namely, a full wave non-synchronous type (Figs. 1, 2, 3, and 5) and a full wave interruption, full wave rectication synchronous type (Figs. 16 to 20 inclusive) The contact structure of the nonsynchronous motor will be considered first. As best seen in Fig. 5, a movable contact point 35 is ailixed, as by spinning, welding or like operation, to the end of a movable contact arm 36 of relatively stif! but resilient current conducting material. The arm ares from the .attached point v and terminates in oppositely and transversely exregistration with the apertures 24a in the reed.

In the motor for full wave interruption a. pair of such contact point and arm structures is employed, disposed one on each side face of the reed. Rivets 39 or the like, through the registered apertures 38 and 24, secure the parts permanently together to form a complete reed sub-assembly While each contact point is, therefore, individually mounted, the contacts are nevertheless electrically connected and are axially alined to provide in effect a double contact which faces in opposite directions from the reed.

To avoid interference with the natural frequency' of vibration of the reed, the contact structures should not be allowed to touch freely at their outer ends since the vibration induced therein as the reed swings will cause the touching parts to vibrate between themselves or buzz. Therefore, the contact structures should be spaced without touching or should-be suitably secured together. The'former method is preferred as the thickness of the reed serves to space the contacts. Each movable contact point 35 is arranged for cooperation with a fixed contact point 40. Referring to Figs. 3 and 5, each fixed contact point is secured to the end of a supporting finger 4i fashioned of relatively heavy, resilient and bendable current conducting stock. At its other end, the finger has an enlarged base 42 having an area smaller than that of the frame end I3. Spaced apertures 43 in the base are disposed to be brought into registration with the apertures I9 in the frame end I3 but are larger in diameter. Extending from the base are one or more terminal lugs 44 for connection with electrical conductors, which lugs also serve as position locating means in assembling the parts. Two of the fixed contacts are of course used in the present motor and these contacts are disposed, each in cooperative opposition to a movable contact 35. The combination of the points 35 and supporting fingers 4l with their positioning lugs thus form` convenient contact sub-assemblies.

AIn the illustrated assembly, the reed and fixed contacts are so mounted on the frame that the motor is adapted for connection in a circuit wherein the reed and frame are grounded and the xed contacts included in electrically independent circuits. Reference is had particularly to Figs. 3, 4, and 5 in describing the assembly of the reed and fixed contacts on the frame. 'I'he reed is -Il and 24 being in registration. The reed is prefthroughthe face to face abutment of the frame end I 3 and reedend 2|, the respective apertures erably placed on the aide of the Aframe toward which the frame'sides I I are onset and the extent of offset is such that the reed is substantially on the center lineof the o'set portion of the frame side when the motor is seen from the side (see Fig. 3).

Abutting the outer face of the reed end 2| is a connecter spacer 4l having a lug 4B thereon and' securing apertures 41 therein. Theconnecter spacer may be astamped piece, in which case the burr side preferably abuts the reed to insure good electrical contact. Through the lug l 46, the reed and frame may be connected in a circuit. Next the connecter spacer 4l is a second spacer 48 having securing apertures 49. An insulating member 50, of approximately the dimensions of the frame end I3, is apertured'for mounting purposes, as at 5I, and fashioned of mica or other suitable material. The insulating member follows the spacer 48 in the assembly and the base 42 of one fixed 'contact is positioned next the insulating member. A second and similar insulating member 52, apertured at 53, abuts the outer face of the fixed contact base 42 and the assembly on this side of the frame is completed by a double nut member 55 having tapped apertures 56 therein.

The assembly on the opposite side of the frame includes progressively, a spacer 51, apertured as at 58, an insulating member 58 similar to the insulating members and 52, and apertured as at 60, the opposite xed contact nnger 4 I a second insulating member 6I having apertures 62, a clamping member 63. having apertures 64, and a pair of screws S5. The apertures in each part of the assembly are all adapted to be placed in registration with apertures l 9 and 24 in the frame and reed and, with the exception of the apertures 43 in the bases 42 of the :fixed contacts, are only slightly larger in diameter than the shanks of the screws 65, which passing therethrough engage tapped apertures 56in the nut 55 to secure the parts rigidly together.

The larger diametered apertures 43 in the fixed contact'bases are dimensioned to provide an insulating space betweenthe margins of the apertures and the screws. Assembly ci these parts can be expeditiously made in a suitable jig or xture, during which operation the spacing of the n reed laterally relative to the frame sides II and longitudinally of the frame with respect to the end of the core I5 may be ilxed with such accuracy that no further adjustment after assembly is required.

The method of assembling the vibratory motor described as well as the jig or other apparatus therefor forms no part of the present invention but is described .and claimed in the copending application of Edward L. Barrett, Serial No. 89,051, led July 6, '1936.

The combinedthicknesses of the frame end I3, the spacer 51 and the adjacent insulating member 59 is primarily the factor whichdetermines the spacing of the fixed Contact on that side of the frame from the reed and consequently of the fixed contact point Ill from its opposed cooperating movable contact point 35. This combined dimension is predetermined to be that which will space the cooperating points 40, 35 a proper operating distance apart. -On the opposite side of the frame compensation for the abn n 12,072,575 placed in direct electrical contact with the frame sence of the frame thickness is preferably made by the connecterspacer 45 and the adjacent spacer 48, the combined dimensions of these parts being equal to that of the frame end I3 and the spacer 51. In this simple manner, both fixed contact points are caused to assume an exceedingly accurate relation to the cooperating movable contact points during the single operation of assembling the parts. In practice, it has been found that frequently no final adjustment is necessary and that at most the maximum adjustment required is only a few thousandths of an inch. Whatever adjustment is necessary is obtained by slightly bending the fingers 4I to obtain the proper spacing and 'to insure full surface contact of the points.

Referring to Figs. 2 and 4, the assembly provides a novel means for securing the electromagnetic winding end 32in place. This end, because of its connection with the projection 32l on the spool end, is positioned on the 'center line o`f the adjacent frame side at the winding end of the frame. led along the frame side and is passed between the insulating members 59, 6I where these mem-- bers project beyond the interposed fixed contact base. The relative dimensions insure that the winding end will be gripped firmly. Ultimately the winding end is electrically connected to an adjacent lug 44 on the contact base 42. The electromagnet winding is, therefore, connected across the frame (or ground) and one of the fixed contact points.

As may be seen in Fig. 3, the use of a frame in which the parts are coplanar orin the ,same plane produces an oflset relationship between the outer end ci the core I5 and the free end of the reed, due to mounting the reed on a side. face of the frame. If thevarmature is secured to the side of the reed away from the core, an eccentric relation of the armature to the center of the magnetic force exerted through the face of the core is obtained by which vibration of the reed is Started and continued.

The offset portions I8 in the side members of the frame are provided as a convenience to the assembler in effecting adjustment'of the gap between the cooperating contact points, since otherwise the side members of the frame would be in the assemblers line of vision. It is preferred that these offset portions I6 be suiliciently long to permit the assembler to View the gap between the cooperating contacts from several angles so that every needed adjustment can be readily detected. y

In considering the synchronous type of vibratory motor (Figs. 16 to 20), the same reference numerals are for the most part used where the structures are substantially identical or where only dimensional differences occur. Thus, the same basic assembly of frame, electromagnetic winding, reed (not including the movable contacts thereon) and assembly parts are employed. The primary differences are inthe cooperating contact structures. Referring particularly to Fig. 19, the movable contact structure comprises a pair of transversely spaced points 8l Awhich are supported on a common arm 61 of heavy and resilient metal stock, and the arm terminatesin an enlarged base 68 having substantially the same dimensions and apertures 68 as the movable contact base I. in the non-synchronous motor. Two such structures are assembled on the reed by rivets I0 (Fig. 17), thus providing a pair of transversely alined double contacts. Since the same reed is used From this point the winding end is for both types of motors, compensation for the variation of the natural period of vibration caused by the difference in weight of the movable contact structures may, if desired, be effected by varyingthe weight of the amature.

'Ihe structure shown in Fig. 20 is one of four xed contact members employed in the synchronous motor. An elongated, somewhat resilient arm 1I tapers from a mounting base portion 12 toward the other end where it supports a fixed contact 13. The base portion has an aperture 14 therein which is larger in diameter than the aperture I8 in the base and an endwise projection 15 therefrom provides an attachment for an electrical lead and also serves as a position determining transversely spaced a distance ample to preventl short circuits.

An important feature of lthe invention is the provision of a substantially closed magnetic iiux path around the electromagnetic winding whereby high efficiency of operation is obtained. In Figs. 2, 16, and 18, it will be noted that the armature 23 extends substantially from one frame side to the other. The space between the armature ends and the frame, as well as the space between the armature and the end of the core I5 is little more than the clearance required for free relative movement of the amature. 'I'he magnetic flux, therefore, will follow the substantially closed path defined by the core I5, the end of the frame andthe armature, andthe vibratory reed Ais driven with high eiciency. The offset relationship, by virtue of the reed and frame assembly, is substantially proper without nal adiustment for efilcient operation. Whatever adjustment is necessary may be readily effected by `simply bending the core.

In one circuit arrangement in which the nonsynchronous motor is used the fixed contacts are connected one to each end of a divided primary winding of a transformer. Input of power in opposite directions is effected through the vibrating reed which is connected to the center tap of the primary winding. The electromagnetic winding I1 is in series with one section of the primary winding of the transformer and is connected to be shunted out by the closing of the contact points controlling that section, these points being those closed when the electromagnet is energized. In a circuit in which the synchronous motor is used the primary winding circuit connections may be and preferably are the same. The second pair of fixed contacts are connected one to each end of a divided secondary'winding and the reed to the center tap thereof. Adjustment of the circuit by capacitance or the like produces efficient rectification.

.With reference to Fig. 14, a modication of the frame, previously described, is shown as comprising a C-.shaped structure formed by omitting one of the side members Il. Otherwise, the structure is substantially the same. In this form, however, the oifset portion I6 may be omitted since the assembler may view the clearance between the cooperating contacts from the open side of the frame. In Fig. 15 another modified form offrame is illustrated which is generally C-shaped in form and in which a part of the frame itself becomes the core. Thus, the single side member, designated 18, supports the electromagneticwnding 19 and the narrower end member 80 constitutes a continuation of the core of the electromagnetic winding and presents a face in opposition to the reed supporting end 8| of the frame.

The present device is assembled with a supporting means which includes an enclosing casing 82 which is preferably in the form of an elongated cup-like container having an open end. It has been found that substantial benets result from the use of a container formed of metal stock much heavier than that heretofore used. For example, a container formed of stock which is forty thousandths of an inch thick materially decreases the transmissionA of sound vibrations.

If the container is formed of one of the relatively soft metals, such as zinc, tin, copper or lead, sound vibrations are further minimized. Zinc is a preferred metal because ina thick walled container of this type, its relatively high conductivity provides an electrostatic shield of .high efficiency.

The motor is yieldably supported in such a casing by spaced pads engaging the opposite ends of the motor and formed of a suitable resilient material, such as sponge rubber. At the winding end of the motor is a pad 83 (Figs. 2, 3, 9, and 10) substantially rectangular in shape and dimensioned so that the corners bear against the inside walls of the case when the pad rests against the closed end. The pad has a pocket 84 therein, the contour of which conforms substantially to that of the winding end of the motor.

'I'he opposite end of the motor is supported by a pad 85 (Figs. 2, 3, and 8) which fits the open end of the case but is spaced therefrom slightly by a plurality of short longitudinally. extending circumferentially spaced ribs 86.

The inner side of the pad 85 is recessed, as at 81, to receive the motor end. Axially the pad has an aperture 88 to receive the lug 46 to which the ground lead is attached and the aperture near its outer end is restricted to approximately the size of the lead. In generally circular series around the aperture 88 are other similar apertures 88 arranged to receive the projections M or 15 to which the leads of the fixed contacts arel attached.

It is preferred to provide at least six apertures 88, although only four are required, since the lead arrangements to the circuit in which the motor is to be installed may vary. With additional apertures, all variations can be made without changing the pad. To facilitate the making of such variations, the extra apertures are connected by groove's 88 (Fig. 8) with those which receive the projections M or 15. Preferably, in order to avoid possible short circuits, the outer face of the pad has a small radial groove 8| (Fig. 2) extending from the aperture 88 to the periphery to accommodate the ground lead if the motor is to be grounded directly to the case or if the lead is to be connected to other than an axially located prong.

Provision of pads of this nature eliminates the need of separate constructions for each motor or for every circuit variation which may be encountered, thus lessening the cost of manufacture. The total separation of the pads and spaced engagement thereof with the case through the corners on pad 83 and ribs 86 on pad 86 further /erlilcllldto minimize transmission of vibration and To close the open end of the case, means is provided which is simple, effective and constitutes one part of a complementary connecting device. Thus, a disk 92 (Figs. 2, 3, and 11) of fiber or other suitable insulating material, is arranged to fit snugly within the open end of the case. The disk canies a series of spaced prongs 93 of conventional type for detachable --engagement with suitable sockets. Near the open end of the case (Figs. 6 and 7) generally T -shaped indentations y94 are formed with the top portion Il* of the T paralleling and the leg portion 94D extending to the case edge by a stamping operation which completely severs the leg portion but only partially severs the top portion. This proappropriately notched, as at 94 (Figli) to clear v the leg portions of the indentations. The severed ends of the leg portions are then crimped over the outer face of the disk, thus securing the disk nrmly and non-rotatably in place.

Any desired arrangement of prongs on the disk may be made (see Figs. 1 and 11 as-illustrating two examples) and the interchangeability of the various disks is evident. Hence, the requirements of circuit variations can be readily met merely lead from the lug 48 is connected with thatprong. In other circuits,l the case is grounded and this may be accomplished in a novel manner by connecting the ground lead with a prong and 'securing to this prong on the inner side of the disk a relatively heavy lead 95 (Fig. 11) amply long to be crimped over the edge of the disk. The edge of the case is notched, as at 96, to receive the portion of the lead which projects 'beyond the disk periphery and a spot of solder in the notch establishes the connection.

From the foregoing it will be evident that a novel vibratory motor unit has been provided which is simple in structural details, may'be quickly assembled with such accuracy that substantially final adjustment is obtained and which will operate with high emciency. From a production standpoint, the unit is one which has materially improved characteristics and can be manufactured with uniformity and at a relatively low cost. Moreover, after assembly and final adjustment the motor structure is such that subsequent disadiustment resulting from operation is practically eliminated. An important factorcontributing largely to this feature is the construction of each of the spring or resilient members, i. e.. the reed and the supporting members for the fixed and movable contacts without distortion. That is to say, each member is flat and may be produced by al simple stamping' operation without distortion ofthe metal. The deflnite tendency of a distorted tempered member to resume its original shape is, therefore, avoided.

We claim as our invention: 1. In a vibratory motor, the combination of a flat frame fashioned as a stamping from a piece of sheet metal into open rectangular form having end and side members located substantially in the same plane, a core piece integral with and extending from one of said end members inwardly of said frame and in the plane thereof, an electromagnetic winding secured about said core piece, a vibratory reed secured in direct electrical contact to the end member opposite the core piece and extending toward and nearly to said core piece with the plane of said lreed extending along the plane of said frame so that the free end of the reed is positioned at one side of the end of said core piece, an amature on the face of said free end opposite to said core piece, contact supporting members secured to the reed supporting end of said frame on opposite sides of said reed, means for spacing said supporting members equidistantly fromv said reed, and cooperating contacts carried by said reed and supporting members for engagement effected by reed vibration, the side members of said frame being onset from the plane of said frame to render the gaps between the contact points readily visible to an assembler from the side of the frame.

v2. In a vibratory motor, the combination of a .dat frame fashioned as a stamping from a piece of sheet metal into open rectangular form having end and side members located substantially in the same plane, an\ integral core extending from one of said end members inwardly of said frame and in the plane thereof, an electromagnetic winding secured about said core, a vibratory reed secured in direct electrical contact to the end member opposite the core and extending toward and nearly to said core with the plane of said reed extending along the plane of said -frame so that the free end of the reed is positioned at one side of the end of said core, an armature carried by said reed at one side of said core, contacts carried by said reed, and cooperating contacts supported from said frame.

3. In a vibratory motor, the combination of a. flat framefashioned from a piece of magnetically permeable sheet metal into' open rectangular form having end and side members located substan- Tfall'y in'the same plane, an integral core extending from one of said end members inwardly of said frame and in the plane thereofan electromagnetic winding secured about said core, a vibratory reed secured to the end member opposite the core and extending toward and nearly to said core with the plane of said reed extending along the plane of said frame, said reed b eing dimensioned at least at its free end to extend nearly from one side member to the other, an armature on the free end of said reed extending nearly from one side member to the other and having a clearance permitting armature movement pest said side members, said armature'being of magnetic permeable material to complete a substantially closed magnetic path which includes the core and intermediate portions of the frame, and cooperating contacts supported by said frame and reed. y 4. In a vibratory motor the combination of a plane frame, a vibratory reed having one end abutting the face of one side of said. frame to extend substantially parallel to the plane of said frame, spacer means on the outer'face of said end of said reed to compensate for the thickness of said frame, insulated contact members on the outer side of said spacer and on the side of said frame opposite to said reed, and means for securing said parts together.

5. In a vibratory motor, the combination of a fiat frame fashioned from a piece of sheet metal into centrally open rectangular form having end andA side members located substantially in the 5 same plane, an integral core extending from one of said end members inwardly of said frame and in the plane thereof, an electromagnetic winding secured about -said core, a vibratory reed mounted on the end member opposite said core and l extending into cooperative relation thereto, and cooperating' contacts supported respectively by said frame and reed.

6.`In a vibratory motor, the combination of a flat frame having a closed U shaped end sectionl of magnetic permeable material,A a core for an electromagnetic winding extending inwardly 'from the base of said U shaped section and lo- 25 ture being spaced from said frame and face to clear them in the relative movement thereof but being sufficiently close thereto to complete a substantially closed magnetic path around said winding. 4

7. A frame for a vibratory motor comprising a member formed from a single sheet of metal and including a supporting element for a reed, a core for an electromagnetic `winding opposed to said element, and a connecter extending be tween said element and core, said parts being located in substantially the same plane.

8. A frame for a. vibratory motor comprising a flat member embodying a generally C shaped structure in` which one end constitutes an energizable pole piece, and the opposite end a support for a vibratory reed.

9. A frame for a vibratory motor comprising a flat member embodying a generally C shaped structure in which one end constitutes a support 45 for a vibratory reed, and an electromagnetic winding core on the opposite end extending in a direction` longitudinally of said structure.

10. A frame for a vibratory motor comprising an open rectangularly shaped structure having one end adapted for the support of a reed and the opposite end including a core piece extending substantially along the longitudinal line of said structure, said parts being coplanar and the sides of said structure between the ends being slLghtly offset out of the plane of the remaining structure.

11. A frame for avibratory motor comprising an open structure having one end adapted for the support of a reed and the opposite end including an integral electromagnetic winding core extending substantially along thevl'ongitudinal line of said structure, said parts being coplanar.

12. In a vibratory motor device,'the combination of a flat center open frame including a magnetic core member and an opposed support, means 75 rection at right angles to said plane.

for energizing said member, and a reed mounted 14. In a vibratory motor, the combination' of a frame having an energizable pole piece, a supporting element and a connecting part on substantially, the same fiat plane, and a flat reed supported in face-to-face engagement with said' supporting element to extend toward said pole piece.

15. In a vibratory motor, the combination of a fiat reed, means for driving said reed including the' core of an electromagnetic winding, and' means for supporting said reed and said core in operative relation including a at frame member extending along the side edge of said reed and lying in a plane paralleling the same.

16. Ina vibratory motor, the combination of a dat resilient reed, means for driving said reed,

:and reed supporting means including a flat frame having side members extending along opposite side edges of said reed and lying in a plane paralleling the same.

17. In a vibratory motor, the combination of a frame having an energizable pole piece thereon,

open end'to provide a series of circumferentially alined outwardly facing shoulders, means including a closure adapted to Ht snugly within the open end of said case and rest against said shoul ders for maintaining said vibratory motor in position within said case, said case .having portions thereof overturned to 'sind said closure in sucia position thereby aiding in preventing displace* ment of said motor due to the vibratory operation thereof, and connecter means on closure.

19. In a device of the character described, the

combination of a vibratory motor, an enclosing the open end, and means including a closure adapted to t snugly within the open end of said case and rest against said shoulders for maintaining said vibratory motor in position within said case, said closure being periplierailgf notched to clear said free nibs, said nibs being adapted -to be overturned when said closure abuts said shoulder to secure said closure against movement relative to said case and thereby aiding in preventing displacement of said motor due to the vibratory operation thereof.

20. In a vibratory motor the combination of a frame having an energizable pole piece thereon, a pair of laterally flexible portions of resilient sheet metal arranged in parallel relation `in a `common plane, means for supporting adjacent ends of said portions oi' resilient sheet metal in spaced relation on said frame, the opposite ends thereoi being freely movable, an armature carried by said opposite ends disposed in operative relation with respect to said pole piece, and con` tact supporting means extending between said portions of sheet metal intermediate the ends thereof.

21. A one-piece open rectangular supporting frame structure for use in a vibratory motor comprising, longitudinally extending side members and integral opposed end members 'fashioned as a stamping from a single piece of sheet material, and a core piece integral with and extending from one of said end members inwardly of said frame and in the plane thereof, the other of said' end members having apertures therein adapted to receive securing means for mounting the xed end of a vibratory reed thereon, at least one of said side members having a portion thereof offset from the plane of said apertured end member to provide a space for the inspection of contacts carried by the reed.

22. A one-piece open rectangular supporting frame structure for use in a vibratory motor comprising, longitudinally extending side members and integral opposed end members fashioned as a stamping from a single piece of sheet material, and a core piece integral with and extending from one of said end members inwardly y of said frame and in therplane thereof, the other of said end members having apertures therein adapted to receive securing means for mounting the xed end of a vibratory reed thereon.

23. A relatively xed contact sub-assembly 4adapted for use in a circuit controlling vibratory Y"rigidly secured to one side of said supporting member, and a plurality of integral assembly positioning lugsA extending laterally from said supporting member at spaced points thereon.

EDWARD L. BARRETT. MAX J. MANAHAN. 

